A research team at Texas A&M has received a $1.8M National Science Foundation Future of Semiconductor grant to develop new energy-efficient interconnect technologies for microchips.
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When it comes to the IoT and smart environments, designers have a big job. They must integrate wireless connectivity with strict security measures.
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Dr. Yuxuan Cosmi Lin and a team of researchers are studying the advantages of using semi-metals in different applications.
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Lightwave electronics aim to integrate optical and electronic systems at incredibly high speeds, leveraging the ultrafast oscillations of light fields.
Researchers from EPFL have developed a next-generation miniaturized brain-machine interface capable of direct brain-to-text communication on tiny silicon chips.
CMOS and CCD sensors both convert light into electronic signals, with CMOS using pixel-level transistors for faster, energy-efficient processing, while CCD transfers charge across the chip for superior image quality but with slower speed and higher power consumption.
This article delves deeper into the microscopic world of MEMS sensors, exploring their operating principles, diverse applications, and the cutting-edge advancements propelling them into the future.
Need something new to listen to? Try these 10 Circuit Break Podcasts.
7 minutes read
This article delves into the significance of PCB inspection, exploring the latest advancements, challenges, and various inspection techniques employed to safeguard the integrity and functionality of PCBs.
This article provides a detailed understanding of microprocessor vs integrated circuit, their basics, key differences, future trends, challenges, and how they synergize to form the backbone of our digital systems.
The Defense Department’s largest research organization has partnered with a Princeton-led effort to develop advanced microchips for artificial intelligence.
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Optimizing Medical AI: Revolutionizing Diagnostics with the OKdo Nano C100 Developer Kit
Advanced chips are critical in unlocking unparalleled speed, connectivity, and efficiency in modern telecommunications.
Transistors — the tiny on-off switches inside microchips — have gotten smaller and smaller over the years, increasing computing power and enabling smaller devices. During that time, the copper wires that connect these switches have likewise shrunk.
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Silicon-level security is crucial in protecting the hardware of computing devices, serving as a foundational layer for data integrity and system reliability in our increasingly digital world.
